An Integrated 20-kW Motor Drive and Isolated Battery Charger for Plug-In Vehicles
(2013) In IEEE Transactions on Power Electronics 28(8). p.4013-4029- Abstract
- For vehicles using grid power to charge the battery, traction circuit components are not normally engaged during the charging time, so there is a possibility to use them in the charger circuit to have an on-board integrated motor drive and battery charger. An isolated high-power three-phase integrated motor drive and charger based on a split-phase permanent magnet motor is presented in this paper. The motor winding connections are reversible by a relay-based switching device for traction and battery charging. In traction mode, the motor is a classical three-phase motor, but in charging mode it is a rotating isolating transformer providing a three-phase voltage source for the inverter to charge the battery. A mathematical model of the motor... (More)
- For vehicles using grid power to charge the battery, traction circuit components are not normally engaged during the charging time, so there is a possibility to use them in the charger circuit to have an on-board integrated motor drive and battery charger. An isolated high-power three-phase integrated motor drive and charger based on a split-phase permanent magnet motor is presented in this paper. The motor winding connections are reversible by a relay-based switching device for traction and battery charging. In traction mode, the motor is a classical three-phase motor, but in charging mode it is a rotating isolating transformer providing a three-phase voltage source for the inverter to charge the battery. A mathematical model of the motor with six stator windings is presented for an arbitrary phase shift in windings. For the charging mode, the split-phase motor grid synchronization process and charge control are explained including the developed controller. A 20-kW system is designed and implemented to verify the proper operation of the proposed system. Simulation and practical results are provided to show the system performance in terms of functionality, dynamic response, and efficiency. Moreover, some discussions, recommendations, and limitations are provided to give more practical insights. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/3576849
- author
- Haghbin, Saeid ; Khan, Kashif ; Zhao, Shuang ; Alaküla, Mats LU ; Lundmark, Sonja and Carlson, Ola
- organization
- publishing date
- 2013
- type
- Contribution to journal
- publication status
- published
- subject
- keywords
- winding, reconnection, split-phase permanent magnet (PM) motor model, plug-in vehicles, isolated battery charger, Integrated motor drive and battery charger
- in
- IEEE Transactions on Power Electronics
- volume
- 28
- issue
- 8
- pages
- 4013 - 4029
- publisher
- IEEE - Institute of Electrical and Electronics Engineers Inc.
- external identifiers
-
- wos:000314705500037
- scopus:84872866512
- ISSN
- 0885-8993
- DOI
- 10.1109/TPEL.2012.2230274
- language
- English
- LU publication?
- yes
- id
- af3c9fca-0956-4d28-ba08-20798d1fc884 (old id 3576849)
- date added to LUP
- 2016-04-01 15:04:20
- date last changed
- 2022-10-05 08:28:01
@article{af3c9fca-0956-4d28-ba08-20798d1fc884, abstract = {{For vehicles using grid power to charge the battery, traction circuit components are not normally engaged during the charging time, so there is a possibility to use them in the charger circuit to have an on-board integrated motor drive and battery charger. An isolated high-power three-phase integrated motor drive and charger based on a split-phase permanent magnet motor is presented in this paper. The motor winding connections are reversible by a relay-based switching device for traction and battery charging. In traction mode, the motor is a classical three-phase motor, but in charging mode it is a rotating isolating transformer providing a three-phase voltage source for the inverter to charge the battery. A mathematical model of the motor with six stator windings is presented for an arbitrary phase shift in windings. For the charging mode, the split-phase motor grid synchronization process and charge control are explained including the developed controller. A 20-kW system is designed and implemented to verify the proper operation of the proposed system. Simulation and practical results are provided to show the system performance in terms of functionality, dynamic response, and efficiency. Moreover, some discussions, recommendations, and limitations are provided to give more practical insights.}}, author = {{Haghbin, Saeid and Khan, Kashif and Zhao, Shuang and Alaküla, Mats and Lundmark, Sonja and Carlson, Ola}}, issn = {{0885-8993}}, keywords = {{winding; reconnection; split-phase permanent magnet (PM) motor model; plug-in vehicles; isolated battery charger; Integrated motor drive and battery charger}}, language = {{eng}}, number = {{8}}, pages = {{4013--4029}}, publisher = {{IEEE - Institute of Electrical and Electronics Engineers Inc.}}, series = {{IEEE Transactions on Power Electronics}}, title = {{An Integrated 20-kW Motor Drive and Isolated Battery Charger for Plug-In Vehicles}}, url = {{http://dx.doi.org/10.1109/TPEL.2012.2230274}}, doi = {{10.1109/TPEL.2012.2230274}}, volume = {{28}}, year = {{2013}}, }